Broadband achromatic optical metasurface devices

Shuming Wang; Pin Chieh Wu; Vin-Cent Su; Yi-Chieh Lai; Cheng Hung Chu; Jia-Wern Chen; Shen-Hung Lu; J. Chen; Beibei Xu; Chieh-Hsiung Kuan; Tao Li; Shining Zhu; Din Ping Tsai

doi:10.1038/s41467-017-00166-7

Broadband achromatic optical metasurface devices

Shuming Wang^*, Pin Chieh Wu, Vin-Cent Su, Yi-Chieh Lai, Cheng Hung Chu, Jia-Wern Chen, Shen-Hung Lu, J. Chen, Beibei Xu, Chieh-Hsiung Kuan, Tao Li^*, Shining Zhu, Din Ping Tsai^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

1036 Citations (Scopus)

81 Downloads (CityUHK Scholars)

Abstract

Among various flat optical devices, metasurfaces have presented their great ability in efficient manipulation of light fields and have been proposed for variety of devices with specific functionalities. However, due to the high phase dispersion of their building blocks, metasurfaces significantly suffer from large chromatic aberration. Here we propose a design principle to realize achromatic metasurface devices which successfully eliminate the chromatic aberration over a continuous wavelength region from 1200 to 1680 nm for circularly-polarized incidences in a reflection scheme. For this proof-of-concept, we demonstrate broadband achromatic metalenses (with the efficiency on the order of 12%) which are capable of focusing light with arbitrary wavelength at the same focal plane. A broadband achromatic gradient metasurface is also implemented, which is able to deflect wide-band light by the same angle. Through this approach, various flat achromatic devices that were previously impossible can be realized, which will allow innovation in full-color detection and imaging.

Original language	English
Article number	187
Journal	Nature Communications
Volume	8
Online published	4 Aug 2017
DOIs	https://doi.org/10.1038/s41467-017-00166-7
Publication status	Published - 2017
Externally published	Yes

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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title = "Broadband achromatic optical metasurface devices",

abstract = "Among various flat optical devices, metasurfaces have presented their great ability in efficient manipulation of light fields and have been proposed for variety of devices with specific functionalities. However, due to the high phase dispersion of their building blocks, metasurfaces significantly suffer from large chromatic aberration. Here we propose a design principle to realize achromatic metasurface devices which successfully eliminate the chromatic aberration over a continuous wavelength region from 1200 to 1680 nm for circularly-polarized incidences in a reflection scheme. For this proof-of-concept, we demonstrate broadband achromatic metalenses (with the efficiency on the order of 12%) which are capable of focusing light with arbitrary wavelength at the same focal plane. A broadband achromatic gradient metasurface is also implemented, which is able to deflect wide-band light by the same angle. Through this approach, various flat achromatic devices that were previously impossible can be realized, which will allow innovation in full-color detection and imaging.",

author = "Shuming Wang and Wu, {Pin Chieh} and Vin-Cent Su and Yi-Chieh Lai and Chu, {Cheng Hung} and Jia-Wern Chen and Shen-Hung Lu and J. Chen and Beibei Xu and Chieh-Hsiung Kuan and Tao Li and Shining Zhu and Tsai, {Din Ping}",

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AU - Wang, Shuming

AU - Wu, Pin Chieh

AU - Su, Vin-Cent

AU - Lai, Yi-Chieh

AU - Chu, Cheng Hung

AU - Chen, Jia-Wern

AU - Lu, Shen-Hung

AU - Chen, J.

AU - Xu, Beibei

AU - Kuan, Chieh-Hsiung

AU - Li, Tao

AU - Zhu, Shining

AU - Tsai, Din Ping

PY - 2017

Y1 - 2017

N2 - Among various flat optical devices, metasurfaces have presented their great ability in efficient manipulation of light fields and have been proposed for variety of devices with specific functionalities. However, due to the high phase dispersion of their building blocks, metasurfaces significantly suffer from large chromatic aberration. Here we propose a design principle to realize achromatic metasurface devices which successfully eliminate the chromatic aberration over a continuous wavelength region from 1200 to 1680 nm for circularly-polarized incidences in a reflection scheme. For this proof-of-concept, we demonstrate broadband achromatic metalenses (with the efficiency on the order of 12%) which are capable of focusing light with arbitrary wavelength at the same focal plane. A broadband achromatic gradient metasurface is also implemented, which is able to deflect wide-band light by the same angle. Through this approach, various flat achromatic devices that were previously impossible can be realized, which will allow innovation in full-color detection and imaging.

AB - Among various flat optical devices, metasurfaces have presented their great ability in efficient manipulation of light fields and have been proposed for variety of devices with specific functionalities. However, due to the high phase dispersion of their building blocks, metasurfaces significantly suffer from large chromatic aberration. Here we propose a design principle to realize achromatic metasurface devices which successfully eliminate the chromatic aberration over a continuous wavelength region from 1200 to 1680 nm for circularly-polarized incidences in a reflection scheme. For this proof-of-concept, we demonstrate broadband achromatic metalenses (with the efficiency on the order of 12%) which are capable of focusing light with arbitrary wavelength at the same focal plane. A broadband achromatic gradient metasurface is also implemented, which is able to deflect wide-band light by the same angle. Through this approach, various flat achromatic devices that were previously impossible can be realized, which will allow innovation in full-color detection and imaging.

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U2 - 10.1038/s41467-017-00166-7

DO - 10.1038/s41467-017-00166-7

M3 - RGC 21 - Publication in refereed journal

C2 - 28775300

SN - 2041-1723

VL - 8

JO - Nature Communications

JF - Nature Communications

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ER -

Broadband achromatic optical metasurface devices

Abstract

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